Developmental Origins Of Adult Cardiovascular Disease: Vascular Health In The Raine Cohort
Funder
National Health and Medical Research Council
Funding Amount
$1,087,427.00
Summary
The Raine study is a unique long term experiment that has collected extensive pre-birth and childhood data in ~3000 young Australians, who are now 27 years old. We plan to measure the artery health of 1200 of these volunteers and to determine what factors, both before and after birth, influence the presence of early atherosclerosis in humans. This study will guide strategies aimed at early prevention of heart attacks and stroke in humans, by defining the major risk factors.
Determining how calcium regulates mitochondrial function in models of cardiomyopathy. Heart failure is the leading cause of death in Australia. This project will determine the mechanisms by which the failing heart is associated with disorganisation of the cell and poor energy supply so that interventions aimed at reducing the development of heart failure can be developed.
The identification, prevention and management of chronic disease risk factors and understanding impact on clinical outcomes is fundamental to improving health and well-being. The program of work encapsulated in this application utilises a number of research methods to advance our understanding and provide new directions for cardiovascular disease prevention and management.
Impact of shear stress on vascular adaptations in humans. Large arteries are important for the delivery of blood and oxygen to organs such as the heart and brain. A primary physiological stimulus which controls the size and function of these crucial arteries is the magnitude of flow or, more accurately, shear force that the inner wall of the artery is exposed to. We have developed novel software which enables non-invasive assessment of arterial wall velocity, diameter and blood flow. We will ass ....Impact of shear stress on vascular adaptations in humans. Large arteries are important for the delivery of blood and oxygen to organs such as the heart and brain. A primary physiological stimulus which controls the size and function of these crucial arteries is the magnitude of flow or, more accurately, shear force that the inner wall of the artery is exposed to. We have developed novel software which enables non-invasive assessment of arterial wall velocity, diameter and blood flow. We will assess the impact of acute and chronic changes in wall flow and shear on arterial size and function. We will also develop new software which measures other aspects of artery wall behaviour. These basic human physiology studies have direct implications for assessment of artery health in humans.Read moreRead less
Understanding And Overcoming Cardiovascular And Diabetes Inequalities In Indigenous Australians
Funder
National Health and Medical Research Council
Funding Amount
$707,370.00
Summary
Aboriginal and Torres Strait Islanders experience the highest rates of heart disease and diabetes of all Australians. The reasons for this large disparity is not yet fully understood. I propose to investigate the patterns, causes, complications and links between heart disease and diabetes in Indigenous populations to identify better ways of managing and preventing chronic disease in high risk communities.
AusDiab 3: Emerging Risk Factors For And Long-term Incidence Of Cardio-metabolic Diseases
Funder
National Health and Medical Research Council
Funding Amount
$2,616,397.00
Summary
This study will track 11,000 Australian adults over 12 years to determine how many develop diabetes, obesity, kidney and heart disease. The study will develop ways to best predict those who are going to develop these conditions before they have arisen, and will explore a range of novel risk factors to better understand these conditions.
Centre Of Research Excellence In Cardiovascular Outcomes Improvement
Funder
National Health and Medical Research Council
Funding Amount
$2,500,000.00
Summary
Quality, safety and the effectiveness of providing prevention and treatments to those with cardiovascular disease is the focus of research of the CRE in Cardiovascular Outcomes Improvement. Utilizing data derived from clinical registries and large patient databases of patients receiving various treatments for heart problems, we will investigate what factors are important in delivering cost-effective favorable outcomes. The centre will train future leaders in cardiovascular research focusing on
Novel Approaches To The Prevention And Treatment Of Chronic Heart Disease And Its Co-morbid Complications
Funder
National Health and Medical Research Council
Funding Amount
$5,793,580.00
Summary
Cardiovascular disease (CVD) and its associated additional disorders constitute major public health problems, especially given the rapidly ageing population which is increasingly affected by obesity and diabetes. This Program will explore novel therapies for the treatment of CVD and associated diseases, particularly focussing on chronic kidney disease, translating preliminary laboratory-based findings into clinical trials and then clinical and epidemiological findings into practice and policy.
Improving Delivery Of Secondary Prophylaxis For Rheumatic Heart Disease: A Stepped-wedge, Community-randomised Trial
Funder
National Health and Medical Research Council
Funding Amount
$1,913,074.00
Summary
Rheumatic heart disease (RHD) is a major health problem in Indigenous communities. Continued progress in controlling RHD requires an understanding of how to improve delivery of regular injections of penicillin - secondary prophylaxis (SP). We will evaluate a systems-based approach to improving delivery of SP, using a stepped-wedge trial in 12 communities in NT and Qld. If successful, this model will provide a practical and transferable model.
Structure-activity relationships in the development of new bioactive isoflavonoids. This project aims to develop new chemical substances based on the structure of a group of naturally occuring compounds called isoflavones. Biological activity related to chronic inflammatory (eg arthritis) and heart disease will be examined in cells and animal models. This information will be used to design compounds with enhanced activity. The eventual aim is to develop potential therapeutic agents to treat chr ....Structure-activity relationships in the development of new bioactive isoflavonoids. This project aims to develop new chemical substances based on the structure of a group of naturally occuring compounds called isoflavones. Biological activity related to chronic inflammatory (eg arthritis) and heart disease will be examined in cells and animal models. This information will be used to design compounds with enhanced activity. The eventual aim is to develop potential therapeutic agents to treat chronic inflammatory and cardiovascular disease.Read moreRead less